心理学报
心理學報
심이학보
CHINESE JOURNAL OF PSYCHOLOGY
2015年
4期
488-502
,共15页
杨亚平%王沛%尹志慧%陈庆伟%冯夏影
楊亞平%王沛%尹誌慧%陳慶偉%馮夏影
양아평%왕패%윤지혜%진경위%풍하영
刻板印象激活%自动化加工%无意图%N400
刻闆印象激活%自動化加工%無意圖%N400
각판인상격활%자동화가공%무의도%N400
stereotype activation%automatic process%unintentional%N400
采用启动 Stroop 范式,对刻板印象激活的无意图性及其大脑神经活动特征进行了探讨。操纵了启动和“无启动”条件以及与启动所激活的刻板印象一致、冲突和无关的3类靶子词,记录了36名大学生被试对靶子词进行颜色判别的行为反应和脑电图(EEG, electroencephalogram)。结果发现:(1)“无启动”条件下对3类靶子的反应时基本一致;启动条件下对一致靶子做出颜色判别的反应时显著快于对冲突靶子的,对无关靶子的反应时介于两者之间。(2)“无启动”条件下无关靶子诱发的N400波幅最大——显著大于一致和冲突靶子诱发的,后两者诱发的 N400无差异;启动条件下一致靶子诱发的 N400波幅显著小于冲突和无关靶子诱发的 N400波幅,无关靶子诱发的 N400波幅也小于冲突靶子诱发的 N400波幅。这表明刻板印象激活是一个发生在知觉后加工阶段的具有无意图性的自动化加工过程,刻板印象激活效应具有抑制冲突信息加工同时促进一致信息加工的“双刃剑”模式, N400可以作为考察这一认知过程特征的电生理学指标。
採用啟動 Stroop 範式,對刻闆印象激活的無意圖性及其大腦神經活動特徵進行瞭探討。操縱瞭啟動和“無啟動”條件以及與啟動所激活的刻闆印象一緻、遲突和無關的3類靶子詞,記錄瞭36名大學生被試對靶子詞進行顏色判彆的行為反應和腦電圖(EEG, electroencephalogram)。結果髮現:(1)“無啟動”條件下對3類靶子的反應時基本一緻;啟動條件下對一緻靶子做齣顏色判彆的反應時顯著快于對遲突靶子的,對無關靶子的反應時介于兩者之間。(2)“無啟動”條件下無關靶子誘髮的N400波幅最大——顯著大于一緻和遲突靶子誘髮的,後兩者誘髮的 N400無差異;啟動條件下一緻靶子誘髮的 N400波幅顯著小于遲突和無關靶子誘髮的 N400波幅,無關靶子誘髮的 N400波幅也小于遲突靶子誘髮的 N400波幅。這錶明刻闆印象激活是一箇髮生在知覺後加工階段的具有無意圖性的自動化加工過程,刻闆印象激活效應具有抑製遲突信息加工同時促進一緻信息加工的“雙刃劍”模式, N400可以作為攷察這一認知過程特徵的電生理學指標。
채용계동 Stroop 범식,대각판인상격활적무의도성급기대뇌신경활동특정진행료탐토。조종료계동화“무계동”조건이급여계동소격활적각판인상일치、충돌화무관적3류파자사,기록료36명대학생피시대파자사진행안색판별적행위반응화뇌전도(EEG, electroencephalogram)。결과발현:(1)“무계동”조건하대3류파자적반응시기본일치;계동조건하대일치파자주출안색판별적반응시현저쾌우대충돌파자적,대무관파자적반응시개우량자지간。(2)“무계동”조건하무관파자유발적N400파폭최대——현저대우일치화충돌파자유발적,후량자유발적 N400무차이;계동조건하일치파자유발적 N400파폭현저소우충돌화무관파자유발적 N400파폭,무관파자유발적 N400파폭야소우충돌파자유발적 N400파폭。저표명각판인상격활시일개발생재지각후가공계단적구유무의도성적자동화가공과정,각판인상격활효응구유억제충돌신식가공동시촉진일치신식가공적“쌍인검”모식, N400가이작위고찰저일인지과정특정적전생이학지표。
Ample previous studies have provided behavioral and electrophysiological evidences about stereotype activation. It is an open question whether stereotype activation is an unintentional process and what the characteristics of brain activity in this process are. Adopting priming Stroop paradigm, the present study aimed to investigate the pattern and the neural correlates of unintentional stereotype activation by recording both behavioral and ERP data. Thirty young participants (16 female) were recruited in this experiment. The prime word was a social category label (“Men” / “Women”) and a Korean character (“?”/“?”) in the prime and “no-prime” control conditions respectively. The target word was either a stereotypic trait word associated with one of the gender categories or a scene-descriptive word. Thus, the target word was consistent, inconsistent or irrelevant with the gender stereotype. A trial in this experiment began with a 300 ms fixation cross, followed by the prime which was presented on the screen for a period of 300 ms. The prime was followed by an ISI of 500ms, after which the target word came for 300ms. After the presentation of the target a blank was presented and lasted until the participants responded. And then, the inter-trial interval (ITI) was randomized between 600 and 800 ms. All words appeared in the center of the computer screen. The participants were told that 360 words with red, green or blue would appear on the screen in random order. For each word appearing on the screen, they were asked to decide as fast as possible whether a word was red, green or blue by pressing the “Q”,”P” and the “space” button respectively. The button labels of “red”, “green” and “blue” were pasted on the “Q”, “P” and “Space” of the computer key board before the experiment. The responses were counterbalanced across the participants. Behavioral results showed that the reaction time for consistent, inconsistent and irrelevant targets was almost the same in the “no-prime” condition. However, in the prime condition, the participants made significantly faster responses for the consistent targets, compared to the inconsistent; the reaction time for the irrelevant targets was faster than the inconsistent targets but slower than the consistent targets. ERPs results indicated that the N400 amplitude was significantly affected by the target types, but the tendency was obviously different across the prime and the “no-prime” conditions. In the “no-prime” condition, the irrelevant targets elicited the significantly largest N400 amplitude; the N400 amplitudes evoked by the consistent and the inconsistent targets were almost same. However, in the prime condition, the N400 elicited by the inconsistent targets was significantly larger than the consistent targets over the fronto-central area, and the N400 elicited by the irrelevant targets was larger than the consistent targets but smaller than the consistent targets. These results indicated that the process of stereotype activation was an unintentional automatic process. This unintentional stereotype activation effect with “double-edged knife” pattern started at the post-perceptual processing stage and the N400 ERP component reflected the unintentionally access of stereotypical knowledge in the memory representation. The N400 ERP component could be a sensitive indicator to investigate unintentional stereotype activation.